Oberflächenphotospannung an dünnen organischen Schichten auf Metallsubstraten / Surface photovoltage of thin organic films on metal substrates

Teich, Sebastian

06 April 2009

Gegenstand dieser Arbeit ist die Untersuchung der Ober?ächen- bzw. Grenz?ächenphotospannung (SPV) an dünnen organischen Schichten auf Metallsubstraten. Besonderes Augenmerk gilt dabei dem System dünner Schichten von 3,4,9,10-Perylen- Tetracarbonsäure-Di-Anhydrid (PTCDA) auf einem Au(110)-Kristall. Für diese Untersuchungen wurde eine phasensensitive Methode auf der Basis der Photoelektronenspektroskopie (PES) mit zusätzlicher modulierter Lichteinstrahlung entwickelt, die es erlaubt, lichtinduzierte Verschiebungen des Ober?ächenpotentials mit einer Au?ösung ? 1mV zu detektieren. Diese modulierte Photoelektronenspektroskopie wird ausführlich vorgestellt. Eine makroskopische Kelvin-Sonde und die Kelvin-Sonden-Rasterkraftmikroskopie (KPFM) werden als weitere Möglichkeiten zur Bestimmung des Ober?ächenpotentials vorgestellt. Die Photospannung wird mit diesen Methoden in Bezug auf drei Parameter untersucht: Da die Barriere an der Grenz?äche, welche für die Ausbildung der Photospannung ursächlich ist, durch die Photospannung reduziert wird, geben Messungen der SPV in Abhängigkeit von der eingestrahlten Lichtleistung Informationen über die energetische Struktur der Grenz?äche, speziell über die Höhe der Barriere. Mit den ebenfalls aus diesen Methoden gewonnen Informationen über die Austrittsarbeit und Ionisationsenergie von PTCDA lässt sich ein Bandschema des Systems Au/PTCDA entwickeln. Die wellenlängenabhängigen Messungen zeigen, dass Exzitonen in verschiedenen Zuständen erzeugt werden. Diese werden mit unterschiedlichen Photonenenergien angeregt und besitzen unterschiedliche Di?usionslängen. Da die Exzitonen zum Dissoziieren an die Grenz?äche di?undieren müssen, tragen die unterschiedlichen Exzitonenzust ände mit unterschiedlichem Anteil zur Photospannung bei. Die Untersuchungen der Entstehungs- und Zerfallszeit zeigen, dass sich die Photospannung sehr schnell nach Lichteinschaltung aufbaut. Der Abbau der Photospannung nach Lichtabschaltung erfolgt vergleichsweise langsam. Dies bedeutet, dass die Ladungsträger, die nach der Ladungsträgertrennung in der organischen Schicht zur ückbleiben, in Fallenzuständen gebunden sind, aus denen sie thermisch aktiviert werden müssen. In einem separaten Abschnitt werden die Entwicklung sowie Messergebnisse eines Stimmgabel-Rasterkraftmikroskops (AFM) vorgestellt. Dieses ermöglicht die hochau ?ösende topographische Abbildung der Ober?äche mit einer vertikalen Sensitivität im Ångström-Bereich. Das Ziel, mit diesem Gerät KPFM zu betreiben, konnte beim Einsatz an Luft nicht verwirklicht werden. / Subject of this work is the investigation of surface and interface photovoltage (SPV) of thin organic films on metal substrates. Special attention is focused on the system of thin layers of 3,4,9,10-perylenetetracarboxylic-dianhydride (PTCDA) on an Au(110) crystal. For this investigation a novel phase sensitive method was developed based on photoelectron spectroscopy (PES) under additional modulated illumination. It provides the possibility to detect light induced changes in the surface potential with a resolution of about 1mV. This modulated photoelectron spectroscopy is described in detail. Macroscopic Kelvin probe and Kelvin probe force microscopy (KPFM) are presented as further possibilities to measure the surface potential. The photovoltage is investigated by these techniques regarding three parameters: Due to the fact that the barrier at the interface is responsible for the formation of the photovoltage and that the height of this barrier is reduced by the photovoltage, the measurement of the dependence of the SPV on the intensity of the incident light provides information about the energetic structure of the interface. Together with the values of the work function and the ionisation energy of PTCDA, also gained with this methods, a band diagram of the interface can be developed. The wavelength dependent measurements show that excitons can be generated in multiple states. They are excited at different photon energies and have different diffusion lengths. The excitons have to diffuse to the interface to dissociate. Therefore the different excitation states contribute to SPV with different amounts. The investigations upon the generation and decay of the photovoltage shows that the SPV signal appears immediately after switching on the illumination. The decay of the photovoltage after switching off the light is much slower. This implies that the charge carriers are trapped as they remain in the organic film after charge separation at the interface. They have to be thermally activated from this traps. In an extra chapter the development and measurement results of a tuning fork scanning force microscope (AFM) are described. This AFM features high resolution topography images with a vertical sensitivity in the range of single angstroms.

Photospannung

PTCDA

Photoelektronenspektroskopie

PES

Kelvin-Sonde

Rasterkraftmikroskopie

AFM

KPFM

organische Schichten

Oberflächenpotential

Shottky-Barriere

Stimmgabel

photovoltage

PTCDA

photoelectron spectroscopy

PES

Kelvin-probe

atomic force microscopy

AFM

KPFM

organic films

surface potential

Shottky-barrier

tuning fork

ddc:530

rvk:UP 8000

Approche structurale et étude de la conduction ionique de verres a base de thioarsenite de lithium et de verres a formateur mixte, thioborate et thioarsenite de lithium

Seung, Do-Young

11 July 1995

Une nouvelle famille de verres du système As2S3-Li2S-Lil a été étudiée. Ils présentent une conductivité ionique élevée. Une étude de l'ordre local par différentes techniques a permis de proposer des hypothèses structurales. L'étude cristallographique d'un nouveau compose Li3AsS3 a permis, d'autre part, une étude structurale comparative avec le verre de même composition. L'évolution des propriétés physiques de ces verres (conductivité ionique, température de transition vitreuse, densité), a été correlée a leurs compositions. Un petit domaine vitreux a été mis en évidence dans le système As2S3-B2S3-Li2S comportant deux sulfures formateurs. La caractérisation de ces matériaux a permis de proposer des hypothèses structurales liées a leur homogènéité.

Etude expérimentale

Conductivité ionique

Verre

Composé minéral

Structure état amorphe

Formation verre

Lithium composé

Thioarsenite

Thioborate

Spectrométrie photoelectron

Rayon-X

RMN

Spectre Raman

Spectre absorption

Spectre RX

Femtosekunden Photodetachment- Photoelektronenspektroskopie an isolierten und massenselektierten Halogen-Edelgas-Clustern / Femtosecond photodetachment photoelectron spectroscopy of isolated and mass selected halogen rare gas clusters

Kopczynski, Matthäus

01 September 2010

No description available.

540 Chemie

Mathematics and Computer Science

Halogen-Edelgas-Cluster

Femtosekunden Dynamik

Käfigeffekt

TOF Massenspektrometrie

Halogen rare gas clusters

Femtosecond dynamics

Cage effect

TOF mass spectrometry

35.16

35.26

35.46

SD 000: Physikalische Chemie

Surface chemistry of a Cu(I) beta-diketonate precursor and the atomic layer deposition of Cu2O on SiO2 studied by x-ray photoelectron spectroscopy

Dhakal, Dileep, Waechtler, Thomas, E. Schulz, Stefan, Gessner, Thomas, Lang, Heinrich, Mothes, Robert, Tuchscherer, Andre

07 July 2014

This article has been published online on 21st May 2014, in Journal of Vacuum Science & Technology A: Vac (Vol.32, Issue 4): http://scitation.aip.org/content/avs/journal/jvsta/32/4/10.1116/1.4878815?aemail=author DOI: 10.1116/1.4878815 This article may be accessed via the issue's table of contents at this link: http://scitation.aip.org/content/avs/journal/jvsta/32/4?aemail=author The surface chemistry of the bis(tri-n-butylphosphane) copper(I) acetylacetonate, [(nBu3P)2Cu(acac)], and the thermal atomic layer deposition (ALD) of Cu2O using this Cu precursor as reactant and wet oxygen as co-reactant on SiO2 substrates are studied by in-situ X-ray photoelectron spectroscopy (XPS). The Cu precursor was evaporated and exposed to the substrates kept at temperatures between 22 °C and 300 °C. The measured phosphorus and carbon concentration on the substrates indicated that most of the [nBu3P] ligands were released either in the gas phase or during adsorption. No disproportionation was observed for the Cu precursor in the temperature range between 22 °C and 145 °C. However, disproportionation of the Cu precursor was observed at 200 °C, since C/Cu concentration ratio decreased and substantial amounts of metallic Cu were present on the substrate. The amount of metallic Cu increased, when the substrate was kept at 300 °C, indicating stronger disproportionation of the Cu precursor. Hence, the upper limit for the ALD of Cu2O from this precursor lies in the temperature range between 145 °C and 200 °C, as the precursor must not alter its chemical and physical state after chemisorption on the substrate. 500 ALD cycles with the probed Cu precursor and wet O2 as co reactant were carried out on SiO2 at 145 °C. After ALD, in situ XPS analysis confirmed the presence of Cu2O on the substrate. Ex-situ spectroscopic ellipsometry indicated an average film thickness of 2.5 nm of Cu2O deposited with a growth per cycle of 0.05 Å/cycle. Scanning electron microscopy (SEM) and atomic force microscopy (AFM) investigations depicted a homogeneous, fine, and granular morphology of the Cu2O ALD film on SiO2. AFM investigations suggest that the deposited Cu2O film is continuous on the SiO2 substrate.

Cu2O

Atomic force microscopy (AFM)

Atomic layer deposition (ALD)

Atomic concentration

Copper oxide

Cu(I) β diketonate

Cu precursor

Surface chemistry

Thermal disproportionation

Auger parameter

ddc:540

ddc:620

Atomlagenabscheidung

Kupferoxide

Oberflächenchemie

Electronic Structures and Energy Level Alignment in Mesoscopic Solar Cells : A Hard and Soft X-ray Photoelectron Spectroscopy Study

Lindblad, Rebecka

January 2014

Photoelectron spectroscopy is an experimental method to study the electronic structure in matter. In this thesis, a combination of soft and hard X-ray based photoelectron spectroscopy has been used to obtain atomic level understanding of electronic structures and energy level alignments in mesoscopic solar cells. The thesis describes how the method can be varied between being surface and bulk sensitive and how to follow the structure linked to particular elements. The results were discussed with respect to the material function in mesoscopic solar cell configurations. The heart of a solar cell is the charge separation of photoexcited electrons and holes, and in a mesoscopic solar cell, this occurs at interfaces between different materials. Understanding the energy level alignment between the materials is important for developing the function of the device. In this work, it is shown that photoelectron spectroscopy can be used to experimentally follow the energy level alignment at interfaces such as TiO2/metal sulfide/polymer, as well as TiO2/perovskite. The electronic structures of two perovskite materials, CH3NH3PbI3 and CH3NH3PbBr3 were characterized by photoelectron spectroscopy and the results were discussed with support from quantum chemical calculations. The outermost levels consisted mainly of lead and halide orbitals and due to a relatively higher cross section for heavier elements, hard X-ray excitation was shown useful to study the position as well as the orbital character of the valence band edge. Modifications of the energy level positions can be followed by core level shifts. Such studies showed that a commonly used additive in mesoscopic solar cells, Li-TFSI, affected molecular hole conductors in the same way as a p-dopant. A more controlled doping can also be achieved by redox active dopants such as Co(+III) complexes and can be studied quantitatively with photoelectron spectroscopy methods. Hard X-rays allow studies of hidden interfaces, which were used to follow the oxidation of Ti in stacks of thin films for conducting glass. By the use of soft X-rays, the interface structure and bonding of dye molecules to mesoporous TiO2 or ZnO could be studied in detail. A combination of the two methods can be used to obtain a depth profiling of the sample.

Photoelectron spectroscopy

HAXPES

PES

XPS

electronic structure

energy level alignment

mesoscopic solar cell

hole conductor

perovskite

dye-sensitized

semiconductor-sensitized

TiO2

ZnO

spiro-OMeTAD

P3HT

DEH

metal sulfide

Li-TFSI

Co(+III) complex

Atomistic Simulations of Bonding, Thermodynamics, and Surface Passivation in Nanoscale Solid Propellant Materials

Williams, Kristen

2012 August 1900

Engineering new solid propellant materials requires optimization of several factors, to include energy density, burn rate, sensitivity, and environmental impact. Equally important is the need for materials that will maintain their mechanical properties and thermal stability during long periods of storage. The nanoscale materials considered in this dissertation are proposed metal additives that may enhance energy density and improve combustion in a composite rocket motor. Density Functional Theory methods are used to determine cluster geometries, bond strengths, and energy densities. The ground-state geometries and electron affinities (EAs) for MnxO?: x = 3, 4, y = 1, 2 clusters were calculated with GGA, and estimates for the vertical detachment energies compare well with experimental results. It was found that the presence of oxygen influences the overall cluster moment and spin configuration, stabilizing ferrimagnetic and antiferromagnetic isomers. The calculated EAs range from 1.29-1.84 eV, which is considerably lower than the 3.0-5.0 eV EAs characteristic of current propellant oxidizers. Their use as solid propellant additives is limited. The structures and bonding of a range of Al-cyclopentadienyl cluster compounds were studied with multilayer quantum mechanics/molecular mechanics (QM:MM) methods. The organometallic Al-ligand bonds are generally 55-85 kcal/mol and are much stronger than Al-Al interactions. This suggests that thermal decomposition in these clusters will proceed via the loss of surface metal-ligand units. The energy density of the large clusters is calculated to be nearly 60% that of pure aluminum. These organometallic cluster systems may provide a route to extremely rapid Al combustion in solid rocket motors. Lastly, the properties of COOH-terminated passivating agents were modeled with the GPW method. It is confirmed that fluorinated polymers bind to both Al(111) and Al(100) at two Al surface sites. The oligomers HCOOH, CH3CH2COOH, and CF3CF2COOH chemisorb onto Al(111) with adsorption energies of 10-45 kcal/mol. The preferred contact angle for the organic chains is 65-85 degrees, and adsorption energy weakens slightly with increasing chain length. Despite their relatively weak adsorption energies, fluorinated polymers have elevated melting temperatures, making them good passivation materials for micron-scale Al fuel particles.

materials science

solid propellants

organometallics

ab initio calculations

antiferromagnetic materials

ferrimagnetic materials

ground states

isomerisation

magnetic moments

magnetic structure

manganese compounds

molecular clusters

photoelectron spectra

chemisorption

dispersion interactions

carboxylates

surface passivation

thermodynamics

density functional theory

Aqueous Solutions as seen through an Electron Spectrometer : Surface Structure, Hydration Motifs and Ultrafast Charge Delocalization Dynamics

Ottosson, Niklas

January 2011

In spite of their high abundance and importance, aqueous systems are enigmatic on the microscopic scale. In order to obtain information about their geometrical and electronic structure, simple aqueous solutions have been studied experimentally by photo- and Auger electron spectroscopy using the novel liquid micro-jet technique in conjunction with synchrotron radiation. The thesis is thematically divided into three parts. In the first part we utilize the surface sensitivity of photoelectron spectroscopy to probe the distributions of solutes near the water surface. In agreement with recent theoretical predictions we find that large polarizable anions, such as I- and ClO4-, display enhanced surface propensities compared to smaller rigid ions. Surface effects arising from ion-ion interactions at higher electrolyte concentrations and as function of pH are investigated. Studies of linear mono-carboxylic acids and benzoic acid show that the neutral molecular forms of such weak acids are better stabilized at the water surface than their respective conjugate base forms. The second part examines what type of information core-electron spectra can yield about the chemical state and hydration structure of small organic molecules in water. We demonstrate that the method is sensitive to the protonation state of titratable functional groups and that core-level lineshapes are dependent on local water hydration configurations. Using a combination of photoelectron and X-ray absorption spectroscopy we also show that the electronic re-arrangement upon hydrolysis of aldehydes yields characteristic fingerprints in core-level spectra. In the last part of this thesis we study ultrafast charge delocalization dynamics in aqueous solutions using resonant and off-resonant Auger spectroscopy. Intermolecular Coulombic decay (ICD) is found to occur in a number of core-excited solutions where excess energy is transferred between the solvent and the solute. The rate of ultrafast electron delocalization between hydrogen bonded water molecules upon oxygen 1s resonant core-excitation is found to decrease upon solvation of inorganic ions. The presented work is illustrative of how core-level photoelectron spectroscopy can be valuable in the study of fundamental phenomena in aqueous solutions.

Water

Aqueous solutions

Ions

Molecular Hydration

Electron dynamics

Atmospheric Chemistry

Hydrolysis

Acid-Base Chemistry

Interatomic Coulombic Decay

ICD

Liquid Micro-Jet

X-ray Photoelectron Spectroscopy

XPS

Auger Electron Spectroscopy

AES

MAX-lab

BESSY

Physics

Fysik

Θεωρητική μελέτη μη γραμμικών οπτικών διεργασιών σε επιφάνεια χρυσού

Καρατζάς, Νικόλαος

03 May 2010

Δύο από τα πιο γνωστά μη γραμμικά οπτικά φαινόμενα που λαμβάνουν χώρα κατά την ακτινοβόληση επιφανειών χρυσού με ισχυρούς παλμούς laser είναι η γένεση πολλαπλών αρμονικών και η πολυφωτονική φωτοηλεκτρική εκπομπή. Οι διεργασίες αυτές αποτελούν το αντικείμενο της παρούσας διδακτορικής διατριβής. Κατ' αρχήν η προσπάθεια επικεντρώνεται στην ανάπτυξη ρεαλιστικών μοντέλων περιγραφής των συγκεκριμένων φαινομένων. Εν συνεχεία πραγματοποιούνται αριθμητικοί υπολογισμοί με στόχο την αναπαραγωγή πρόσφατων πειραματικών δεδομένων μέσω της οποίας προτείνονται νέες ιδέες αξιοποίησης των εν λόγω διεργασιών. / Multiple harmonic generation and multiphoton photoelecton emission are the most important nonlinear optical phenomena that take place when a metal surface is illuminated with intense laser pulses. The main objective of this work is the development of realistic theoretical models for these processes. Numerical calculations for several pulse widths are also presented. Through these calculations the validity of the models is checked and new experimental perspectives are proposed.

Μη γραμμική οπτική

Κβαντική οπτική

Επιφάνεια χρυσού

Γένεση αρμονικών

620.112 95

Nonlinear optics

Quantum optics

Gold surface

Harmonic generation

Multiphoton photoelectron emission

Multiphoton processes

Μελέτη της επιφάνειας ITO-PET και της διεπιφάνειας NiPc/ITO-PET με φασματοσκοπίες φωτοηλεκτρονίων

Τσικριτζής, Δημήτρης

20 April 2011

Σκοπός της παρούσας εργασίας είναι αρχικά να μελετηθεί η επιφάνεια του οξειδίου ινδίου κασσιτέρου που έχει αποτεθεί σε υπόστρωμα ΡΕΤ και να γίνουν πάνω σε αυτήν χημικές επεξεργασίες αλλά και ιοντοβολή, ώστε να παρατηρηθούν τι επιδράσεις έχουν αυτές οι κατεργασίες στην επιφάνεια και ενδεχομένως στο έργο εξόδου. Οι κατεργασίες επιλέχθηκαν επειδή είναι γνωστή από την βιβλιογραφία η επίδρασής τους στο ΙΤΟ που όμως έχει αποτεθεί σε γυαλί, και η σύγκριση με τα δικά μας αποτελέσματα θα δώσει χρήσιμες πληροφορίες για τις διαφορές των δύο υλικών καθώς και αν οι κατεργασίες αυτές μπορούν να χρησιμοποιηθούν και αν είναι χρήσιμες για την αύξηση του έργου εξόδου του ΙΤΟ-ΡΕΤ. Επίσης, στη συνέχεια έγιναν αποθέσεις οργανικού ημιαγώγιμου υλικού (NiPc) πάνω στο υπόστρωμα ΙΤΟ-ΡΕΤ το οποίο είχε επεξεργαστεί χημικά, με σκοπό να προσδιοριστεί η ηλεκτρονική δομή της διεπιφάνειας του οργανικού και του υποστρώματος, ώστε να μελετηθεί η επίδραση του ΙΤΟ-ΡΕΤ στην συμπεριφορά της διεπιφάνειας και να διαπιστωθεί η πιθανή εφαρμογή τους σε ηλεκτρονικές διατάξεις. / The purpose of this thesis is to study the surface of indium tin oxide deposited on PET substrate after some chemical treatments and Argon Sputtering, in to order to investigate what effects these treatments have on the surface and possibly in the work function. The treatments were chosen because it is known from the literature the influence they have on the ITO, but which it has been deposited on glass, and a comparison of our results will provide useful information about differences between the two materials, and whether these treatments can be useful for increasing the work function of ITO-PET. Also, it was deposited organic semiconductor material (NiPc) onto the ITO-PET substrate that was chemically processed in order to determine the electronic structure at the interface of organic substrate and to study the effect of ITO-PET in the behavior of interface and to determine its possible application in electronic devices.

Επιστήμη επιφανειών

Ακτίνες Χ

Οργανικοί ημιαγωγοί

661.06

Photoelectron spectroscopies

UPS

X-rays

Organic semiconductors

Indium tin oxide

Nickel phthalocyanine

XPS

PET

ITO

NiPc

Příprava a studium katalytického systému Cu(O)-CeO2 metodami povrchové analýzy / The preparation and study of catalytic system Cu(O)-CeO2 using surface analytical methods

Šmíd, Břetislav

January 2013

Title: The preparation and study of catalytic system Cu(O)-CeO2 using surface analytical methods Author: Břetislav Šmíd Department: Department of Surface and Plasma Science Supervisor of the doctoral thesis: Doc. Mgr. Iva Matolínová, Dr. Abstract: This work is concerned with a study of copper/copper oxide - cerium dioxide systems and their interaction with CO and H2O molecules. Investigated samples were prepared in the form of powder catalysts and also as very well defined model inverse systems. The low temperature CO oxidation powder catalysts were studied by means of XPS, XRD, SEM, TEM and in micro-reactor system allowing the CO oxidation examination. The study of H2O adsorption and co-adsorption of H2O with CO were carried out on model inverse systems CeOx(111)/Cu(111) in ultra-high vacuum conditions using X-ray, synchrotron radiation (SRPES), resonant (RPES) photoelectron spectroscopies and LEED. It was observed on the stoichiometric surface water adsorbs molecularly at 120 K while on the reduced surface and surface of CeO2 islands on Cu(111) the H2O adsorption is partially dissociative with formation of OH groups. The increase of Ce3+ species (i.e. surface reduction) observed after H2O adsorption was explained as an electronic effect of the Ce 4f charge accumulation and Ce 5d charge depletion....